Conchisioi - RESULT AND DISCUSSION - Extraction of Liquid Fuel from Pyrolysis of Waste Tyres wi

CFIAPTER V RESULT AND DISCUSSION

6.1 Conchisioi

CHAPTER VI

CONCLUSION AND RECOMMENDATIONS

-p

6.2 Recommendations for Future work,

Better experimental model can be made to improve the quality and quantity of products.

. Different catalysts can be used to obtain more yields of oil products.

• More efficient fractionating columns can be used for separation of pyrolysis oil fuel into different fractionates.

• Different kinetic methods and models can be used for designing a suitable reactor to maximize the oil product.

• Optimization of the process to achieve an economical and eco-friendly method.

• Pyrolysis reactor can be designed in such a way that lower cost catalytic cracking can occur for production of petrol and LPG like liquid fuel.

• The catalytic oil could be analyzed for desulfurization and decolonization which would be solvent, alternative fuel etc.

REFERENCES

[1] M. R. Islam, M. S. H. K. Tushar, H. Haniu, Production of Liquid Fuels and Chemicals from Pyrolysis of Bangladeshi Bicycle/rickshaw Tyre Wastes, Science Direct Journal of Analytical and Applied Pyrolysis, Elsevier, 2008, Vol. 82, 96- 109.

[21 M. R. Islam, M. Parveen and I-I. I-laniu, 2010, "Properties of Sugarcane Waste- Derived Bio-Fuels Obtained by Fixed-bed Fire-Tube Heating Pyrolysis", .Journal of Bioresource Technology, Elsevier, Vol. 101, Issue II, pp 4162-4168

[31 M. R. Islam, M. U. H. Joardder, S. M. 1-lasan, K. Takai, H. Haniu, Feasibility Study for Thermal Treatment of Solid Tyre Wastes in Bangladesh by Using Pyrolysis Technology, Science Direct Journal of Waste Management, Elsevier, 2011.

[4] Sharma V. K, Fortuna F, Mincarini M, Berillo M, Cornacchia, 2000, "Disposal of Waste Tyres or Energy Recovery and safe Environment". Applied Energy, Vol.

65, 381-394.

[5] Brian i1afen, Lynn A. Clingo, First Stat I nergy. Oil Production system and Methods. http://2. imimg.com/data2/NN/RL/MY-/first-star-energy-websitc

purpose.pdf

[6] B. Benallal, C. Roy, H. Pakdel. S. Chabot, M. A. Poirier, Characterization of Pyrolytic light Naptha form Vaccum Pyrolysis of used Tyres Comparison with Petroleum Naptha ,Fuel ^,74 (11)

[7] C. Roy, ^A.Chaala, H. Darmstadt, The Vacuum Pyrolysis of used Tyres End uses

for Oil and Carbon black Products, J. Anal. Appl. Pyrol.,Vol.51, pp. 201-221,

- 1999

I-I. Pakdel, C. Roy, Simultaneous Gas Chromatographic-Fourier 1'ransform Infrared Spectroscopic-mass Spectrometric Analysis of Synthetic Fuel Derived from Used Tyre Pyrolysis Oil, Naphtha Fraction, J. Chromatogr. A. 683, pp. 203-2 1, 1994

A. M. Cunliffe, P. T. Williams, J. Anal. Appl. Pyrolysis Vol.44, pp.13 I—I i2. 1998

M. F. Laresgoiti, B. M. Caballero, I. Marco, A. Torres, M. A. Cabrero, M. J.

Chomon, J. Anal. Appl. Pyrolysis, Vol. 71, pp.91 7- -934, 2004

[ii] H. G. Franck, J. W. Stadeihofer, Industrial Aromatic Chemistry, Springer, London, 1988

[12] P. T. Williams, A. J. Brindle, Fue, vol. 81, pp.2425-2434, 2002

P. T. Williams, A. J. Brindle, J. Anal. Appi. Pyrolysis, Vol.67, pp.143-i64, 2003.

Md. Hasan All, Extraction of Pyrolytic Fuel from Non- biodegradable Solid Waste, M .Sc Engineering Report, Department of Mechanical Engineering, KUET ,2014.

Tasawan Suparat ^,Waste Tyre Management in Thailand: A Material Flow Analysis Approach , Master of Science, Asian institute of Technology , School of Environment Resources and Development, Thailand pp. 3-10, 2013,

T. Amari, Themelis, N. J, & Wernick, 1. K. Resource Recovery from used Rubber Tyres. Resources Policy, Vol. 25(3), pp. 179-188, 1999

Maorwe Lillian Kathomi, From Waste to product; Recycling Waste Tyres to save the Environment , Undergraduate Degree, Faculty of Architecture, Design and Development, University of Nairobi, pp. 10-12 ^,2009

Z. Korenova, M. Juma, K. Holikova, K. Jelemensky, J. Markos, "Optimization of Scrap Automotive lyres Recycling into Valuable Oil Fuels" Petroleum and Coal, Vol. 47, pp. 1-9, 2005.

Alan C. Lloyd, "Technology Evaluation and Economic Analysis of Waste Tyre Pyrolysis, Gasification, and Liquefaction". Ph.D. Secretary, California Environmental Protection, Agency, 2006.

Atech Group, "A National Approach to Waste Tyres", 2001.

www.wikipediii.oi-g/wiki/Synthetic_{_}rubbei- NIIR Project Consultancy Services, www.niir.org

1. M Rodriguez, M. F Laresgoiti, M. A Cabrero, A Torres, M. J Common, B Caballero, "Pyrolysis of Scrap Tyres". Fuel Processing Technology, pp. 9-22, Vol.

72,2001.

Bicycle Production Reaches 130 Million Units, www.worldwatch.org.9-22.

A. 13 Hird, P. J Griffiths, R. A Smith, 2002, "Tyre Waste and Resource Management: a Mass Balance Approach" Viridis Report VR2, TRL, TSSN 1478- 0143.

Bhatt Prathmesh M, Patel Paresh D, Suitability of Tyre Pyrolysis Oil (TPO) as An Alternative Fuel for Internal Combustion Engine, International .Journal of Advanced Engineering Research and studies, pp. 61-65 2012.

M. R. Islam, H. 1-Ianiu, M. R. Beg Alam and Kazunori Takai Preliminary Investigation for Engine Performance by Using Tyre Derived Pyrolysis Oil-Diesel

Blended Fuels, Journal of Power and Fnergy Systems Vol. 2, No. 6, pp. 1359- 1372, 2008.

M. R. Islam, M. N. Islam, N. N. Mustafi, M. A Rahirn and H. l-Ianiu, Thermal Recycling of Solid Tyre Wastes for Alternative Liquid Fuel: The first commercial step in Bangladesh.

Bouvier, J. M., Gelus, M., Pyrolysis of rubber wastes in heavy oils and uses of the products, Resources and Conservation, Vol. 12, pp. 77-93, 1986.

Recycling of Tyres. www.tifac.org.in.

[3 I] www.honieguides.sfgate.com/environmentaIimpacts_throvingawaytyres.

www.calrecycle.ca.gov.

Della Rocca. P. A., Cerella, E. G., Bonelli, P. R. and Cukierman. A. L. 1999.

"Pyrolysis of hardwoods Residues: On Kinetics and Chars Characterization".

Biomass and Bioenergy, Vol. 16, 79-88.

Bridgwater, A. V. and Peacoke, G. V. C, 2000, Fast Pyrolysis Processes for Biomass. Renewable and Sustainable Energy Reviews, Vol. 4, 1-73.

P. T. Williams, A. M. Cunliffe, 1998, "Composition of Oil Derived from the Batch Pyrolysis of Tyres". Journal of Analytical and Applied Pyrolysis, Vol. 44, pp. 131- 152.

M. R. Islam, M. Parveen, H. Haniu and M. R. Islam Sarker, 2010, "Innovation in Pyrolysis Technology for Management of Scrap Tyre: a Solution of Energy and Environment". International Journal of Environmental Science and Development, Vol. 1, pp. 89 —96.

M. R. Islam, I-i. I-Ianiu, M. R. Beg Alam, 2008, "Oil Fuels and Chemicals from Pyrolysis of Motorcycle Tyre Waste Product Yields, Compositions and related Properties". Fuel, Vol. 87. pp. 31 12-3122.

Balat, M.; Balat, M.; Kirtay, E.; Balat, H. Main Routes for the Thermo-conversion of Biornass into Fuels and Chemicals. Part 1: Pyrolysis Systems. Energy Convers.

Manag. 2009, 50, pp. 3147-3 157

Mohan, D. Pittman, C. U., Jr. Steele, P. H. Pyrolysis of Wood/hiomass for B jo-oil:

A critical Review. Fuel &Energy, Vol.20, No.3, pp. 848-889, 2006.

Bulushev, D. A.; Ross, J. R. H. Catalysis for Conversion of Biomass to Fuels via Pyrolysis and Gasification: A review. Catal. Today 2011, 171, 1-13.

[41] Bridgwater, A. Peacocke, G. Fast Pyrolysis Processes for Biomass. Renew.

Sustain. Energy Rev. 2000, 4, 1-73

- [42] Bajus M.: (2010), Petroleum and Coal, 52 (1) 1-10, 52 (3) 164-172, 52 (3) 207- 214,http://www.vurup.sklsites/vurup.sklarch ivedsite/www.vurup.sklpc/vo152 20 10 /issue 1/pdf/pc_ 1 _20 10_bajus_05 0.pdf

[431 http://www.vurup.sk/sites/varup.sklarchivedsite/www/vu]-up.slcjpc/vo15 320 1 I /issu elfpdf/pc_1_201 1_bajus_95.pdf

H. Pakdel, C. Roy, "Simultaneous gas Chromatographic-Fourier Transfonii infrared Spectroscopie-mass Spectrornetric Analysis of Synthetic Fuel derived from used Tyre Vacuum Pyrolysis Oil, Naphtha fraction". Journal of Chromatography, Vol. 683, pp. 203-2 14, 1994.

Chang Y. M, 1996, "On Pyrolysis of Waste Tyre Degradation rate and Product Yields". Resources Conservation and Recycling, Vol. 17, pp. 125-139.

www.en.wi1dpedia.org/wiki/ZeoIite

H. Yasuda, T. Sato, Y. Yoshimura, Influence of the acidity of USY Zeolite on the Sulfur Tolerance of Pd-Pt Catalysts for Aromatic Hydrogenation, Catal. Today 50 (1999) 63-71.

K. Yoo, E. C. Burekle, P. G. Smirniotis, Isohutane/2-butene Alkylation using large- pore Zeolites: linfluence of pore Structure on Activity and Selectivity. J. Catal. 2 II (2002) 6-18.

P. T. Williams, A. J. Brindle, Catalytic Pyrolysis of Tyres: Influence of catalytic Temperature, Fuel Vol. 81, pp.2425-2434, 2002.

A. J. Brindle, Aromatic Chemicals from the Catalyst Pyrolysis of Scrap Tyres, J.

Anal. Appl. Pyrol. Vol. 67, pp. 143-164, 2003.

Olazar M, Aguado R, Arabiourrutia M, Lopez G, Barona A, Bilbao J, Catalyst Effect on the Composition of Tyre Pyrolysis Products. Energy and Fuels, Vol.22, pp. 2909-29 16, 2008.

M. Kyari, A. M. Cunliffc, P. T. Williams, Charact.erizffl.ion of Oils. Oases, and Char in Relation to the Pyrolysis of Different Brands of Scrap Automotive Tyres.

Energy and Fuels, Vol. 19, pp. 1165-1173, 2005

J Shah, M. R Jan, F Mabood, Recovery of Value added Products from the Catalytic Pyrolysis of Waste Tyre. Energy Conver.rion and iVicinagemeni, Vol. 50, pp. 99 1-994, 2009.

Tamura S, Murakanii K, Kuwazoe H, 1987, "Isothermal degradation of cis-1, 4- Polyisoprene Vulcanizates". Journal of Applied Polymer Science, Vol. 33, pp. 11- 22.

A. K Bhowmick, S Rampalli, K Gallagher, R Seeger, D McIntyre, "The degradation of Guayule Rubber ^-the effect of Resin Components on degradation at high Temperature". Journal of Applied Polymer Science, Vol. 33, pp. I 1 -25. 1987 A. M Mastral, R Murillo, M. S Callen, T Garcia, C. E Snape, 2000, "Influence of

Process variables on Oils from Tyre Pyrolysis and hydrolysis in a swept Fixed bed Reactor". Energy and Fuel, Vol. 55, pp.739-744.

M. R. Islam, H. Hiroyuki, M. R. Alam Beg, 2007, "Limonene-Rich Oils from Pyrolysis of Heavy Automotive Tyre Wastes". Journal of Environment and Engineering, Vol. 2, 68 1-695.

A. M Cunliffe, P. T. Williams, 1998, "Composition of Oils Derived from the batch Pyrolysis of Ttyres". J. Anal. Appl. Pyrolysis, Vol. 44, pp. 13 1-52.

A. M Mastral, R Murillo, M. S Callen, T Garcia, N Torres, 2000, "Optimization of scrap automotive tyres recycling into valuable liquid fuels". Resources, Conservation and Recycling, Vol. 29, pp. 263-272.

Dai X, Yin X, Wu C, Zhang W, Chen Y, 2001, "Pyrolysis of Waste Tyres in a Circulating Fluidized-bed Reactor". Energy, Vol. 26, pp. 385-399.

[611 Gonzalez JF, Encinar .JM, Canito JL, Rodriguez JJ. 2001, "Pyrol^ysis of automotive tyre waste. Influence of operating variables and kinetic study". J. Anal. Appl.

Pyrolysis, Vol. 58-59, pp. 667-83.

Chang YM, 1996, "On pyrolysis of waste tyre: Degradation rate and product yields". Resour. Conserv. Recy. Vol. 17, p1). 125-139.

M. N. Islam, M. R. Alam Beg, 2004, "Fixed bed Pyrolysis of Scrap Tyre for Liquid Fuel Production". International Energy Journal, Vol. 5(1), pp. 11-18.

Ucar S, Karagoz S, Ozkan AR, Yanik J, 2005, "Evaluation of Two different Scrap Tyres as Hydrocarbon Source by Pyrolysis". Fuel, Vol. 84, 1884-1892.

C. Roy, Rastegar A, Kaliaguine S, Darmstadt H. Darmstadt, 1995,

"Physicochemical properties of carbon blacks from vacuum pyrolysis of used tyres". Plast. Rubber Compos. Proc. Appl., Vol.23, pp. 2 1-30.

Dalam dokumen Extraction of Liquid Fuel from Pyrolysis of Waste Tyres with Catalyst (Halaman 83-90)